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Return-path: <ota+space.mail-errors@andrew.cmu.edu> X-Andrew-Authenticated-as: 7997;andrew.cmu.edu;Ted Anderson Received: from corsica.andrew.cmu.edu via trymail for +dist+/afs/andrew.cmu.edu/usr1/ota/space/space.dl@andrew.cmu.edu (->+dist+/afs/andrew.cmu.edu/usr1/ota/space/space.dl) (->ota+space.digests) ID </afs/andrew.cmu.edu/usr1/ota/Mailbox/wYko=sa00UkV09m04A>; Tue, 18 Jul 89 10:47:21 -0400 (EDT) Message-ID: <0Yko=Wu00UkV09kE4B@andrew.cmu.edu> Reply-To: space+@Andrew.CMU.EDU From: space-request+@Andrew.CMU.EDU To: space+@Andrew.CMU.EDU Date: Tue, 18 Jul 89 10:46:59 -0400 (EDT) Subject: SPACE Digest V9 #540 SPACE Digest Volume 9 : Issue 540 Today's Topics: space news from June 5 AW&ST space news from June 12 AW&ST NASA Prediction Bulletins ---------------------------------------------------------------------- Date: 11 Jul 89 02:01:14 GMT From: mailrus!jarvis.csri.toronto.edu!utgpu!utzoo!henry@tut.cis.ohio-state.edu (Henry Spencer) Subject: space news from June 5 AW&ST Magellan's first course correction, May 21, used significantly less fuel than expected and was sufficiently accurate that the second correction, scheduled for December, may be unnecessary. JSC prepares RFP for station crew-rescue vehicle. It will set only the high-level requirements, leaving bidders to pin down detailed specs; this is most unusual for NASA. [Well, I guess now and then NASA's inability to make up its mind can be useful after all...] National Space Council expects to finish updated version of the national space policy by July 20. Quayle says Bush Administration will emphasize execution of the policy, not more changes. "Space policy has not been implemented for a long time." Long-term support for the Aerospace Plane is one of the major issues to be decided. Growing Soviet and West German interest in spaceplanes is likely to be a factor in the Bush policy on the Aerospace Plane. The USSR seems to be heavily into hypersonic research, and Germany recently approved $200M in initial funding for its Sanger project. There is disagreement about how soon these nations, and Japan, will be competitive. USAF awards Lockheed $28M contract to build an on-board threat-warning system to alert satellite controllers to attacks by antisatellite weapons. First flight of Ariane 44L, the heaviest Ariane 4 configuration, slips to June 5 due to minor technical problems. AW&ST reverses itself: the Titan 34D launch May 10 was a snoopsat, not a pair of military comsats. The comsats were originally going to be first, but the snoopsat hardware was ready early. Picture of Buran atop Mriya in flight, as it will appear at Paris. Soviet aerospace industry is awaiting a government decision on how many more orbiters will be funded for the Soviet shuttle; it will be one or two in addition to the two now in existence. Buran was generally in pretty good shape after its orbital flight, despite some tile problems. The assessment is not yet entirely complete, as plans to partially disassemble Buran for wing-interior inspections had to be postponed slightly when the decision was made to take it to the Paris Airshow. There is known to have been minor damage as a result of a hot-gas leak between the carbon wing leading edge and the tiles aft of it on the underside; the Soviets say the problem is understood. Soviets say that Buran was originally going to have a pair of jet engines in pods beside the fin, with tiled exteriors and covers over the intakes against reentry heating. They would not have been enough to permit stable horizontal flight or a go-around after an aborted landing attempt, but they would have given greater maneuverability on the final approach. Approach and landing tests led to the conclusion that they were not useful enough to be worth the trouble. The tests were run with a non-space-ready orbiter carrying a second pair of engine pods on the sides, which added enough thrust for takeoff and cruise. Drawings of a small-spaceplane proposal using a Mriya as an airborne launch platform. Picture of a stripped Buran orbiter (no tail fin, in particular) atop an M-4 "Bison" bomber. [Pretty clear why they want to use Mriya instead; *this* configuration looks incredibly top-heavy, as the orbiter fuselage is about twice the diameter of the M-4's.] Soviets offer Buran's tile-based thermal-protection technology for foreign spacecraft, including full design, production, and installation services. Interior and exterior color pictures of the Soviet shuttle and test articles for it. Ball Aerospace develops toroidal LOX tank, meant to wrap around an oxyhydrogen engine to give more room for hydrogen tankage in an upper stage constrained by length limits. The USAF doesn't seem to have abandoned the idea of hydrogen upper stages for the shuttle as thoroughly as NASA has. Also of note is that the LOX tank is designed to be cooled by hydrogen boiloff, with an objective of a 30-day hold time in orbit. -- $10 million equals 18 PM | Henry Spencer at U of Toronto Zoology (Pentagon-Minutes). -Tom Neff | uunet!attcan!utzoo!henry henry@zoo.toronto.edu ------------------------------ Date: 18 Jul 89 03:09:14 GMT From: mailrus!jarvis.csri.toronto.edu!utgpu!utzoo!henry@iuvax.cs.indiana.edu (Henry Spencer) Subject: space news from June 12 AW&ST This is the big Paris-air-show preview issue. The front cover is a two-page foldout of Buran arriving at Le Bourget on top of Mriya. This was the 15th flight of Buran on Mriya, the Soviets say. The orbiter is attached with tubular supports fore and aft; interestingly enough, it is *not* attached to the two large payload supports on top of Mriya's wing center section. Japanese construction company proposes using an underground silo as a compressed-air gas gun for space launches. The silo would be 2km deep and 10m dia, with the vehicle leaving the muzzle at Mach 1. The Hazama-Gumi Construction Co. says this would lead to major savings in fuel and increases in payload, at a capital cost of about $3.3G. DoT study says US commercial launch suppliers would benefit from a serious effort to improve procedures for private use of government facilities. Foreign suppliers can commit to launch dates three years in advance, but the USAF won't promise availability of US launch facilities more than a year ahead. Various other policies can cost commercial users quite a bit when delays occur. The study does say that commercial fears of being actually bumped from the schedule by government payloads are exaggerated. Recent events in China leave uncertain the fate of efforts that had been underway to reorganize Chinese aerospace activity for better export potential. The Chinese did have booster models at Le Bourget, and are talking about development of two more booster versions, but nobody knows what the policy situation will be. Aerospace planes are big at Le Bourget: large models of NASP (US), Sanger (West Germany), Hope (Japan), and Hotol (UK) all in evidence. OSC/Hercules to sign deal with Ball Aerospace to launch miniature comsats into Clarke orbit on Pegasus. [This will presumably mean a small upper stage or two, since Pegasus is built for low orbit.] Ball is developing a new small comsat design, 400-1000 lbs, specifically for Pegasus launch, and has an agreement with OSC/H. giving it exclusive rights to Clarke- orbit launches from Pegasus for 1990-91. Indonesia and Thailand are reported to be potential early customers, and some European countries are also interested. The Ball satellites would carry only a few transponders, and would be most useful for specialized tasks like filling in for failing satellites or providing communications to relatively small customers. Pegasus managers say the cost of Clarke-orbit missions might be reduced to about $20M this way, as opposed to $100M for current systems, opening up a wide range of possibilities for low-cost use of high orbits. Pegasus is still on track for first launch in August. Space-agency managers from a number of countries meet at Le Bourget to begin coordination of planning for space rescue systems and manned- spacecraft compatibility in areas like docking systems and operating pressures. Soviets study development of a large comsat for both internal use and commercial export markets. Soviets expected to begin marketing satellite radar imaging data with a resolution of 25m in addition to existing remote-sensing services. Israeli government approves covering most of the operating costs of the proposed Amos comsat, assuming Israel Aircraft Industries (the sponsor of the concept) can find commercial funding for construction and launch. The first Ariane 44L (the maximum-boost configuration of the Ariane 4) launches German and Japanese comsats June 5, after repeated schedule slips due to minor technical problems. Pictures of work underway at Kourou on the Ariane 5 production and launch facilities. They will include an SRB test stand that permits firing the Ariane 5 SRBs in a vertical orientation in the same climatic conditions as real launches, and a solid-fuel casting facility for making the booster segments. Story on Ball Aerospace's large-array image-intensifying sensors, one of which will be the sensor on the Space Telescope Imaging Spectrograph (first of the second-generation instruments that will eventually replace the current ones on the Hubble telescope). They also have potential military applications, since they can see everything from visible light to soft X-rays, are very sensitive, and are highly radiation-resistant. The technology is loosely based on current military image-intensifier technology. Rockwell International says that cutting production costs for ALS engines appears best done through simple designs, new production processes, and less use of exotic materials. The efficiency of the manufacturing process is more important than ultimate maximum engine performance, Rockwell says. Rockwell's Rocketdyne division is studying an oxyhydrogen engine with somewhat more thrust than the SSME but lower pressures and temperatures and reduced reusability requirements. The reduced demands can greatly reduce the complexity of the engine; for example, the pumps total about 600 parts, versus 2300 on the SSME. Letter from Jonathan McDowell at the Center for Astrophysics in Cambridge, Mass, pointing out that the new orbiter's name is "Endeavour", not the USized spelling "Endeavor" that AW&ST erroneously used. "The NASA press release consistently uses the spelling `Endeavour' and makes it clear that the new shuttle is named after Capt. James Cook's British ship of that name... Proper nouns do not change their spelling upon crossing the Atlantic." -- $10 million equals 18 PM | Henry Spencer at U of Toronto Zoology (Pentagon-Minutes). -Tom Neff | uunet!attcan!utzoo!henry henry@zoo.toronto.edu ------------------------------ Date: 8 Jul 89 20:40:21 GMT From: helios.ee.lbl.gov!ncis.tis.llnl.gov!blackbird!tkelso@ucsd.edu (TS Kelso) Subject: NASA Prediction Bulletins The most current orbital elements from the NASA Prediction Bulletins are carried on the Celestial RCP/M, (513) 427-0674, and are updated several times weekly. Documentation and tracking software are also available on this system. As a service to the satellite user community, the most current of these elements are uploaded weekly to sci.space. This week's elements are provided below. The Celestial RCP/M may be accessed 24 hours/day at 300, 1200, or 2400 baud using 8 data bits, 1 stop bit, no parity. - Current NASA Prediction Bulletins #536 - Alouette 1 1 00424U 89184.65243503 0.00000339 39606-3 0 2183 2 00424 80.4643 269.6284 0024609 88.7102 271.6824 13.67166328335061 SOLRAD R/B 1 00727U 64001 A 89171.78874071 .00000302 00000-0 26057-3 0 2716 2 00727 69.9018 87.7403 0011522 95.0223 265.2206 13.93541329293593 Cos 185 R/B 1 03019U 67104 B 89176.25590915 .00006386 00000-0 43240-3 0 3777 2 03019 64.0625 89.9529 0222430 228.2977 129.8908 14.89376686106282 ATS 3 1 03029U 67111 A 89149.67299267 -.00000074 00000-0 99999-4 0 2320 2 03029 12.7202 24.3096 0015222 196.7828 163.1216 1.00272718 78954 Cosmos 398 1 04966U 71 16 A 89178.00068269 .00067095 00000-0 44117-3 0 7696 2 04966 51.5652 9.4607 2520115 228.6252 106.9097 10.52402576553423 LAGEOS 1 08820U 89185.94573709 0.00000004 0 7971 2 08820 109.8337 236.1671 0045080 312.2940 47.4072 6.38664216 51760 GOES 2 1 10061U 89173.74950308 -.00000018 0 2814 2 10061 7.2788 68.0377 0012458 186.2024 174.0511 1.00285237 5435 GPS-0001 1 10684U 89184.90891120 0.00000011 10000-3 0 1503 2 10684 63.6201 100.2744 0108641 199.2333 160.3666 2.00560609 68861 GPS-0002 1 10893U 89185.86564008 -.00000027 0 9997 2 10893 64.5040 341.1516 0153671 28.2607 332.5684 2.00556564 81701 GOES 3 1 10953U 78062 A 89163.82999455 .00000088 00000-0 99999-4 0 6777 2 10953 6.0412 70.8826 0008338 259.1647 100.5880 1.00263855 899 SeaSat 1 1 10967U 89185.38126433 0.00001258 48721-3 0 1389 2 10967 108.0099 323.0080 0001900 250.3009 109.7905 14.34698331576558 GPS-0003 1 11054U 89179.69654882 -.00000027 0 442 2 11054 64.1624 337.8476 0054263 118.3186 242.2212 2.00561678 78591 GPS-0004 1 11141U 89184.78358379 0.00000011 0 1710 2 11141 63.5602 100.2232 0057639 321.7008 37.8957 2.00571755 77390 NOAA 6 1 11416U 89179.07363106 0.00001415 61054-3 0 8665 2 11416 98.5079 175.8184 0013378 78.2571 282.0122 14.25840986519457 Solar Max 1 11703U 89186.05444755 0.00052461 74340-3 0 100 2 11703 28.4970 152.7455 0002207 265.9426 94.0847 15.55057383522629 GPS-0006 1 11783U 89179.75487699 -.00000027 0 9223 2 11783 63.8791 337.4802 0142717 61.8168 299.6214 2.00567922 67239 GOES 5 1 12472U 89165.62230441 -.00000249 0 7360 2 12472 2.1442 85.5357 1339225 255.7898 88.3318 1.00210951 28564 SME 1 12887U 81100 A 89177.08931209 .00019203 00000-0 67155-3 0 2311 2 12887 97.6842 203.4299 0002293 170.1556 189.8637 15.29580356426518 UOSAT 1 1 12888U 89175.12060121 0.00109175 12095-2 0 6134 2 12888 97.5518 229.1842 0000824 112.6109 247.5087 15.62617469430070 Meteor 2-08 1 13113U 89175.15706430 0.00000340 29620-3 0 6518 2 13113 82.5384 53.2259 0016905 44.6081 315.6445 13.84010518366207 Salyut 7 1 13138U 89179.98011901 0.00011948 28013-3 0 6355 2 13138 51.6081 259.6968 0001046 56.0682 304.0422 15.42494059410016 LandSat 4 1 13367U 82 72 A 89177.62917337 .00001389 00000-0 31830-3 0 23 2 13367 98.2114 241.1208 0002775 152.1326 208.0049 14.57111170369522 Meteor 2-09 1 13718U 89178.22720267 0.00000523 26982-3 0 7932 2 13718 81.2459 271.7266 0055731 331.6273 28.1863 14.13227046336974 IRAS 1 13777U 89179.54298995 0.00000379 28794-3 0 6516 2 13777 99.0418 16.4972 0011380 284.5105 75.4795 13.98607863327780 TDRS 1 1 13969U 83 26 B 89176.60453643 -.00000221 00000-0 00000 0 0 8117 2 13969 3.5986 68.4668 0001458 134.6146 225.2992 0.99961599 89490 GOES 6 1 14050U 83 41 A 89175.84666552 .00000120 00000-0 00000 0 0 9776 2 14050 1.3141 82.6150 0001313 124.5179 234.7014 1.00279638 6688 OSCAR 10 1 14129U 89174.42674285 0.00000053 0 4120 2 14129 26.1731 258.6318 6055703 52.9375 348.3573 2.05879393 17343 GPS-0008 1 14189U 89179.34425238 0.00000010 10000-3 0 6371 2 14189 63.2036 98.9896 0135608 215.6131 143.4776 2.00568655 43664 Meteor 2-10 1 14452U 89178.24880274 0.00001219 51880-3 0 7405 2 14452 81.1637 283.4658 0096149 67.8022 293.3304 14.22237349293975 LandSat 5 1 14780U 89186.03711697 0.00001015 23495-3 0 8155 2 14780 98.1692 247.9405 0002293 148.6761 211.4392 14.57140410284167 UOSAT 2 1 14781U 89174.60656127 0.00002955 57613-3 0 4689 2 14781 98.0025 233.2168 0012230 307.1522 52.8563 14.63683629283482 LDEF 1 14898U 89182.92899824 0.00035930 56808-3 0 8931 2 14898 28.5061 72.8305 0002120 46.1024 313.9929 15.52049339293743 GPS-0009 1 15039U 89178.90483298 0.00000009 0 6819 2 15039 62.9171 98.2815 0014891 266.1831 93.6473 2.00563842 36932 Meteor 2-11 1 15099U 89177.92616610 0.00000342 29980-3 0 9536 2 15099 82.5329 358.6308 0012275 206.8245 153.2286 13.83675051251466 GPS-0010 1 15271U 89175.81435724 -.00000027 0 6557 2 15271 63.3886 337.2836 0099960 320.8704 38.4151 2.00566298 33984 Cosmos 1602 1 15331U 89182.79943335 0.00002626 37885-3 0 499 2 15331 82.5374 324.9602 0025849 38.7910 321.5111 14.75733733256376 NOAA 9 1 15427U 89178.48001492 0.00000822 46922-3 0 3968 2 15427 99.1431 165.6229 0014515 287.3150 72.6432 14.12068748233903 Meteor 2-12 1 15516U 89174.82108467 0.00000384 33454-3 0 934 2 15516 82.5350 299.4827 0018197 94.8468 265.4798 13.84123123221979 Cosmos 1686 1 16095U 89179.91535696 0.00018705 43289-3 0 2924 2 16095 51.6095 260.0009 0002414 1.4162 358.8175 15.42492175410003 GPS-0011 1 16129U 89176.96653418 0.00000010 0 3276 2 16129 63.7201 99.0103 0117037 150.0987 210.5845 2.00564098 27212 Meteor 3-1 1 16191U 89175.57673348 0.00000043 10000-3 0 8350 2 16191 82.5443 230.5113 0018292 282.8036 77.1062 13.16867709176490 Meteor 2-13 1 16408U 89175.55563457 0.00000283 24406-3 0 5075 2 16408 82.5352 213.7612 0014820 284.0796 75.8720 13.84184981176571 Mir 1 16609U 89179.97686166 -.00055868 -78910-3 0 9121 2 16609 51.6208 304.7112 0010410 102.1880 258.0323 15.56139958193008 SPOT 1 1 16613U 89186.05371367 0.00000758 37384-3 0 5163 2 16613 98.7388 260.3616 0001966 111.0449 249.1000 14.20014680 14667 Meteor 2-14 1 16735U 89166.63717749 0.00000393 34467-3 0 3058 2 16735 82.5385 247.6750 0015551 20.7917 339.3892 13.83925664154249 Cosmos 1766 1 16881U 89186.02937825 0.00001444 20876-3 0 6560 2 16881 82.5231 21.4981 0024424 44.4349 315.8726 14.75366318157926 EGP 1 16908U 89181.61948396 -.00000077 -26518-3 0 1438 2 16908 50.0075 256.7978 0011161 21.7804 338.3504 12.44378877131089 FO-12 1 16909U 89177.26246302 -.00000025 10000-3 0 1524 2 16909 50.0159 270.4283 0010754 8.6970 351.4053 12.44399976130537 NOAA 10 1 16969U 89178.55956945 0.00000992 45637-3 0 2408 2 16969 98.6355 208.8529 0012502 218.8160 141.2114 14.23066843145415 Meteor 2-15 1 17290U 89175.38681730 0.00000198 16884-3 0 2669 2 17290 82.4670 148.0103 0011431 242.2012 117.7993 13.83729851124616 MOS-1 1 17527U 87 18 A 89177.64542846 .00000445 00000-0 35712-3 0 1612 2 17527 99.1478 249.0224 0001302 73.7199 286.4012 13.94879050119692 GOES 7 1 17561U 89164.57217153 -.00000042 10000-3 0 2835 2 17561 0.0551 31.9488 0027390 160.8269 167.0421 1.00277938 1727 Kvant 1 17845U 89179.91263096 0.00044137 62049-3 0 7917 2 17845 51.6229 305.0305 0009782 102.5017 257.6545 15.56183279192991 RS-10/11 1 18129U 87 54 A 89178.82409608 .00000030 00000-0 26436-4 0 7980 2 18129 82.9255 230.2935 0012417 29.1680 331.0160 13.71986617100856 Cosmos 1867 1 18187U 87 60 A 89178.82792454 .00000034 00000-0 31280-4 0 8635 2 18187 65.0141 352.8128 0020066 257.2348 102.6453 14.29374224102640 Cosmos 1870 1 18225U 89185.93366589 0.00131136 86424-5 24352-3 0 1162 2 18225 71.8637 6.9358 0011537 256.8126 103.1827 16.00849891114149 Meteor 2-16 1 18312U 89175.13804845 0.00000219 18868-3 0 2873 2 18312 82.5632 214.0385 0012528 170.6316 189.5093 13.83485889 93473 Meteor 2-17 1 18820U 89174.96934957 0.00000415 36233-3 0 1272 2 18820 82.5432 275.1635 0015527 248.6900 111.2607 13.84174526 70627 AO-13 1 19216U 89147.06007421 0.00000137 10000-3 0 364 2 19216 57.2077 206.1830 6723768 204.7577 96.6993 2.09696457 7298 OKEAN 1 1 19274U 88 56 A 89178.83606133 .00002764 00000-0 40778-3 0 4154 2 19274 82.5169 126.7793 0022420 193.0461 167.0192 14.74864452 52654 Meteor 3-2 1 19336U 89178.90592127 0.00000391 10000-2 0 2088 2 19336 82.5377 168.0753 0019265 116.1302 244.1758 13.16854107 44323 NOAA 11 1 19531U 89178.55544590 0.00000840 48742-3 0 955 2 19531 98.9397 122.5200 0011185 199.9721 160.0955 14.11053109 38936 TDRS 3 1 19548U 88 91 B 89153.77764324 .00000129 00000-0 99999-4 0 261 2 19548 0.5410 85.9584 0002050 10.4654 263.5580 1.00263057 1649 GPS-0014 1 19802U 89 13 A 89165.50968165 .00000015 00000-0 99999-4 0 446 2 19802 55.1080 211.9148 0067914 156.7943 203.5995 2.00555799 2376 Meteor 2-18 1 19851U 89178.60748832 0.00000117 10000-3 0 516 2 19851 82.5231 150.9363 0012198 279.0496 80.9283 13.83810723 16522 TDRS 4 1 19883U 89 21 B 89155.42662197 -.00000217 00000-0 99999-4 0 197 2 19883 0.3364 68.0564 0006551 44.5862 247.4060 1.00548752 96 Cosmos 2020 1 19986U 89167.00035284 0.00713491 34818-4 33909-3 0 650 2 19986 64.7730 355.9562 0129120 90.4929 271.2069 16.04503107 4755 1989 037A 1 20000U 89166.71735513 0.00273342 20071-4 19406-3 0 544 2 20000 69.9458 15.2671 0062488 74.7482 286.1528 16.11421323 3590 RESURS-F 1 20006U 89166.67758184 0.00125228 60541-5 17209-3 0 460 2 20006 82.2956 17.0495 0008737 226.6604 133.3319 16.06021047 3428 Cosmos 2022 1 20024U 89180.39981994 -.00000011 10000-2 0 363 2 20024 64.8272 50.8719 0001867 255.3129 104.7148 2.13102677 6110 Cosmos 2023 1 20025U 89180.69329080 -.00000011 10000-3 0 337 2 20025 64.8449 50.8407 0013705 210.6426 149.3398 2.13102719 639 Cosmos 2024 1 20026U 89180.38648897 -.00000011 10000-3 0 312 2 20026 64.8327 50.8698 0008813 267.3366 92.6243 2.13204691 623 1989 034E 1 20028U 89178.00694809 -.00000011 10000-3 0 101 2 20028 65.0844 49.9949 0026704 349.6370 10.4567 2.13479740 523 SuperBird A 1 20040U 89183.78104506 -.00000099 10000-3 0 180 2 20040 0.0262 313.9524 0003825 147.9338 258.1480 1.00273104 239 1989 041B 1 20041U 89176.16827699 0.00000175 0 66 2 20041 0.0519 101.0035 0018654 274.6572 344.3954 1.00273050 146 1989 041C 1 20042U 89180.73838624 0.00029257 43252-2 0 257 2 20042 6.8451 39.4411 7284761 196.5318 112.7819 2.29135522 453 Cosmos 2026 1 20045U 89182.87143968 0.00000147 14176-3 0 337 2 20045 82.9397 343.5786 0038435 224.9740 134.8304 13.75019694 3391 1989 042B 1 20046U 89183.28114413 -.00005554 -56739-2 0 415 2 20046 82.9421 343.2304 0034632 219.8560 140.0060 13.76474261 3452 Molniya3-35 1 20052U 89185.82178793 0.00000337 -64412-3 0 382 2 20052 62.8916 100.4812 7378798 288.3491 9.3816 2.00619042 532 1989 043C 1 20054U 89185.96952823 0.02236606 40159-4 87942-3 0 493 2 20054 62.8076 4.9277 0106206 118.9114 242.6284 16.10794210 4150 1989 043D 1 20055U 89181.19602649 -.00000033 -72758-4 0 188 2 20055 62.8377 101.2212 7418933 288.2499 9.1610 1.95989428 421 GPS-0013 1 20061U 89184.65013749 -.00000029 0 209 2 20061 54.5908 30.0107 0075416 162.5932 197.7252 2.00706863 504 1989 044B 1 20062U 89185.51276141 0.01815174 -21067-4 86130-3 0 460 2 20062 30.3130 223.7873 0272977 274.2600 82.5898 15.72855592 2459 1989 044C 1 20063U 89180.67387799 0.00150739 16782-4 17311-2 0 284 2 20063 37.5981 14.2665 6028531 215.0459 84.5099 4.10224009 794 1989 045A 1 20064U 89180.22022443 0.00008604 36818-3 0 107 2 20064 65.8385 25.6376 0024329 340.4779 20.7342 15.23081660 2240 1989 045B 1 20065U 89182.89576271 0.00017490 70532-3 0 267 2 20065 65.8434 17.1386 0028390 355.9392 4.1515 15.24554372 2656 Cosmos 2028 1 20073U 89186.14669029 0.00200402 64900-5 11042-3 0 377 2 20073 69.9900 33.6678 0028265 122.3807 237.9966 16.18344283 3023 1989 047B 1 20074U 89171.95493335 0.22683705 21508-4 27768-3 0 201 2 20074 69.9775 75.8690 0009597 31.4079 329.3441 16.49307108 743 1989 048A 1 20083U 89184.84183444 0.00000149 10000-3 0 199 2 20083 1.4879 273.2044 0005888 345.2657 15.5974 1.00260751 123 1989 048D 1 20086U 89184.01668549 -.00000103 10000-3 0 17 2 20086 1.4525 273.3035 0020607 327.7995 42.6674 0.97890576 128 1989 049A 1 20095U 89185.37011683 0.00065210 11046-5 10448-3 0 167 2 20095 82.5626 55.9103 0010502 285.9348 74.1765 16.03412151 1136 -- Dr TS Kelso Asst Professor of Space Operations tkelso@blackbird.afit.af.mil Air Force Institute of Technology ------------------------------ End of SPACE Digest V9 #540 *******************